Posters

Isocratic Separation of Organic Acids on CIM® Disk Monolithic Columns

Organic acids are important metabolites of several biochemical pathways in microorganisms and as such they are frequent main or by-products in different bioprocesses. Consequently, a demand for their monitoring is often present. One of the most applied methods for organic acids determination is certainly HPLC using different separation mechanisms such as reversed-phase, ion-exchange or ion-exclusion chromatography, all based on separation under isocratic flow conditions. To achieve the isocratic separation, multiple steps of adsorption-desorption process are needed and therefore conventional chromatographic columns with long layer of separation material were considered as a necessary tool for achieving this effect.

Recently, it was shown that isocratic separation could also be performed on thin monolithic layers. The isocratic separations of plasmid DNA conformers (1), oligonucleotides (2, 3) and peptides (3) in the ion-exchange mode were demonstrated as well as isocratic reversed-phase separation of a mixture of steroids was obtained (3) all on thin GMA-EDMA monoliths commercially available under trademark CIM™ (Convective Interaction Media). The results indicated the possibility of applying CIM™ monolithic columns also for isocratic separation of some other small charged molecules. Since the average analysis time using CIM™ disk monolithic columns is up to a few minutes, these supports can be a material of choice for separation of organic acids.

Organic acids are important metabolites of several biochemical pathways in microorganisms and as such they are frequent main or by-products in different bioprocesses. Consequently, a demand for their monitoring is often present. One of the most applied methods for organic acids determination is certainly HPLC using different separation mechanisms such as reversed-phase, ion-exchange or ion-exclusion chromatography, all based on separation under isocratic flow conditions. To achieve the isocratic separation, multiple steps of adsorption-desorption process are needed and therefore conventional chromatographic columns with long layer of separation material were considered as a necessary tool for achieving this effect.

Recently, it was shown that isocratic separation could also be performed on thin monolithic layers. The isocratic separations of plasmid DNA conformers (1), oligonucleotides (2, 3) and peptides (3) in the ion-exchange mode were demonstrated as well as isocratic reversed-phase separation of a mixture of steroids was obtained (3) all on thin GMA-EDMA monoliths commercially available under trademark CIM™ (Convective Interaction Media). The results indicated the possibility of applying CIM™ monolithic columns also for isocratic separation of some other small charged molecules. Since the average analysis time using CIM™ disk monolithic columns is up to a few minutes, these supports can be a material of choice for separation of organic acids.